Transistor materials with low power consumption such as graphene have been extensively studied. Among them, a transition-metal dichalcogenide (TMD) MoS₂ has attracted much attention as a post-graphene material. MoS₂ has a two-dimensional structure such as graphene and has a band gap which is not present in graphene, which makes it possible to fabricate a transistor with high on/off ratio and mobility. However, the detailed conduction mechanism has not yet been studied from a microscopic viewpoint. In this study, we report the fabrication of the field-effect transistors (FETs) with MoS₂ thin films and the study of the conduction mechanism using electron spin resonance (ESR) spectroscopy from a microscopic viewpoint. The transistor showed n-type transfer characteristic. The ESR spectra showed two types of signals with Curie-like temperature dependence for the ESR intensity. One has a lower g factor, which didn’t show temperature dependence. The other has a higher g factor, which increased as temperature decreased. The detailed conduction mechanism is discussed on the basis of the ESR signals.